The Male-Sterility Polymorphism of Silene vulgaris: Analysis of Genetic Data From Two Populations and Comparison With Thymus vulgaris

The Male-Sterility Polymorphism of Silene vulgaris: Analysis of Genetic Data From Two Populations and Comparison With Thymus vulgaris

D. Charlesworth^a and Valérie Laporte^b
^a Institute of Cell, Animal and Population Biology, University of Edinburgh, Ashworth Laboratory, Edinburgh EH9 3JT, United Kingdom
^b Laboratoire de Génétique et Evolution des Populations Végétales, Unité de Recherche Associé au Centre National de la Recherche Scientifique 1185, 59655 Villeneuve d'Ascq Cedex, France

Corresponding author: D. Charlesworth, ICAPB, University of Edinburgh, Ashworth Laboratory, King’s Bldgs., W. Mains Rd., Edinburgh EH9 3JT, United Kingdom., deborah.charlesworth{at}ed.ac.uk (E-mail).

Communicating editor: R. G. SHAW

Results are given of genetic studies of male sterility usingplants from two natural populations from Sussex, England. Bothpopulations have substantial frequencies of females, ~0.25 inpopulation 1 and 0.60 in population 3. As in the few other gynodioeciouspopulations studied in detail, many genetic factors are present.In population 1, there are at least two, and more likely three,different cytoplasmic types, one of which appears to producemale sterility in progeny from any hermaphrodite pollen donor;in other words restorer alleles for this cytoplasm are rareor absent from the population. The other two populations canbe carried in hermaphrodites that have the dominant restorers.In population 1, there are also probably three restorer lociwith complementary recessive male-sterility alleles, as wellas a locus with duplicate action, which cannot produce malesterility unless the plant is also homozygous for the recessiveallele at another locus. The results from population 3 are quitesimilar, though there was no evidence in this population foran unrestored sterility cytoplasm. A similar joint nucleocytoplasmicmodel with multiple restorers fits data from Thymus vulgaris.

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